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US3860076A - Combination jar and releasing tool - Google Patents

Combination jar and releasing tool Download PDF

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Publication number
US3860076A
US3860076A US392203A US39220373A US3860076A US 3860076 A US3860076 A US 3860076A US 392203 A US392203 A US 392203A US 39220373 A US39220373 A US 39220373A US 3860076 A US3860076 A US 3860076A
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piston
chamber
jar
housing
opposed
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US392203A
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Travis B White
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    • EFIXED CONSTRUCTIONS
    • E21EARTH OR ROCK DRILLING; MINING
    • E21BEARTH OR ROCK DRILLING; OBTAINING OIL, GAS, WATER, SOLUBLE OR MELTABLE MATERIALS OR A SLURRY OF MINERALS FROM WELLS
    • E21B23/00Apparatus for displacing, setting, locking, releasing or removing tools, packers or the like in boreholes or wells
    • E21B23/004Indexing systems for guiding relative movement between telescoping parts of downhole tools
    • E21B23/006"J-slot" systems, i.e. lug and slot indexing mechanisms
    • EFIXED CONSTRUCTIONS
    • E21EARTH OR ROCK DRILLING; MINING
    • E21BEARTH OR ROCK DRILLING; OBTAINING OIL, GAS, WATER, SOLUBLE OR MELTABLE MATERIALS OR A SLURRY OF MINERALS FROM WELLS
    • E21B17/00Drilling rods or pipes; Flexible drill strings; Kellies; Drill collars; Sucker rods; Cables; Casings; Tubings
    • E21B17/02Couplings; joints
    • E21B17/04Couplings; joints between rod or the like and bit or between rod and rod or the like
    • E21B17/06Releasing-joints, e.g. safety joints
    • EFIXED CONSTRUCTIONS
    • E21EARTH OR ROCK DRILLING; MINING
    • E21BEARTH OR ROCK DRILLING; OBTAINING OIL, GAS, WATER, SOLUBLE OR MELTABLE MATERIALS OR A SLURRY OF MINERALS FROM WELLS
    • E21B23/00Apparatus for displacing, setting, locking, releasing or removing tools, packers or the like in boreholes or wells
    • E21B23/004Indexing systems for guiding relative movement between telescoping parts of downhole tools
    • EFIXED CONSTRUCTIONS
    • E21EARTH OR ROCK DRILLING; MINING
    • E21BEARTH OR ROCK DRILLING; OBTAINING OIL, GAS, WATER, SOLUBLE OR MELTABLE MATERIALS OR A SLURRY OF MINERALS FROM WELLS
    • E21B31/00Fishing for or freeing objects in boreholes or wells
    • E21B31/107Fishing for or freeing objects in boreholes or wells using impact means for releasing stuck parts, e.g. jars
    • E21B31/113Fishing for or freeing objects in boreholes or wells using impact means for releasing stuck parts, e.g. jars hydraulically-operated

Definitions

  • the chamber comprises 2,544,473 3/1951 Smith 175/296 l d n n d 1 2,828,822 4/1958 Greer 175/297 a arge f sma V arrange am 2,370,992 1/1959 Arterbenyw 175/296 passageways w1th a valve located therebetween so that 3,126,972 3/1964 Sutliff 175/294 the p when released from e sma chamber, 3,411,597 11/1968 Kinley et a1 175/294 accelerates and impacts against the opposed end of Canada 175/296 the chamber with a jarring action.
  • One prior art means for removing a fish is to attach a fishing tool to the end of a string of sucker rod and run the rod downhole as it is being made up joint by joint, until the tool contacts or engages the fish, whereupon great force can then be applied to the rod in order to extract the fish from the hole.
  • a jar is usually interposed between the fishing tool and the string of rod so that one can reciprocate the rod, thus imparting a jarring action into the fish. Sometimes it is necessary to jar the fish for many hours in order to cause it to become unstuck. Sometimes the rod again parts, whereupon there are two fish to be extracted from the well.
  • This invention relates to a downhole tool and particularly to a combination jar and releasing tool for use in conjunction with fishing tools.
  • the jar has a piston reciprocatingly received within a piston chamber.
  • the chamber is of two different inside diameters (i.d.s) so that when the mandrel pulls the piston from the small into the large piston chamber, the piston accelerates while traveling through the larger piston chamber and impacts against the end of the large piston chamber, thereby providing for the desired jarring action.
  • the releasing tool is comprised of a downwardly opening housing having spaced .ls" with one leg of the 1" extending upwardly into a piston chamber, where a piston is reciprocatingly received.
  • the piston has spaced longitudinally extending slots of limited length formed thereon within which the extended leg of the J is slidably received.
  • the lower face of the piston is made into a cam so that when the tool string is set down, a dog received within the J is pushed against the cam, causing the dog to lift the piston while the cam on the piston turns the dog out of the J.
  • a primary object of the present invention is the provision of improvements in a combination hydraulic jar and releasing tool.
  • Another object of the invention is to provide a hydraulic jar having a mandrel attached to a piston thereof with the piston being reciprocatingly received within axially aligned chambers of different i.d.s, with the piston and the smaller chamber having means forminga splined connection therebetween so that rotation of the mandrel imparts rotation into the jar body.
  • a further object of this invention is to provide a hydraulic jar which includes a fluid coupling formed through the mandrel and the main bocy of the jar.
  • a still further object of this invention is to provide a releasing tool having a dog releasibly engaged to a J, and a cam formed within a piston which provides a means by which the dog can be turned out of the 1".
  • FIG. 1 there is diagrammatically illustrated a cross-section of the earth within which there has been formed a borehole, with apparatus made in accordance with the present invention being disposed within the borehole in operative relationship with other apparatus;
  • FIG. 2 is an enlarged, broken, longitudinal, part cross-sectional view of part of the apparatus disclosed in FIG. 1;
  • FIGS. 3 and 4 are cross-sectional views taken along lines 3--3 and 44 respectively, of FIG. 2;
  • FIG. 5 is a fragmentary, part cross-sectional view of part of the apparatus disclosed in FIG. 2;
  • FIG. 6 is an enlarged, longitudinal, part crosssectional view of part of the apparatus disclosed in FIG. 1;
  • FIGS. 7, 8, and 9, respectively, are cross-sectional views taken along lines 7-7, 8-8, and 99, respectively, of FIG. 6;
  • FIG. 10 is a part cross-sectional view taken along line 10-10 of FIG. 11;
  • FIG. 11 is a side elevational view of the piston disclosed in FIG. 6;
  • FIG. 12 is a hypothetical view of the piston' of FIG. 11;
  • FIGS. 13 and 14 are diagrammatical, side views which disclose some operative features of the invention.
  • FIG. 15 is a longitudinal, part cross-sectional representation of a modification of part of the apparatus disclosed in FIGS. 1-5;
  • FIGS. 16 and 17, respectively, are cross-sectional views taken along lines 1616 and l7-l7, respectively, of FIG. 15.
  • FIG. 1 there is formed through the earth 10 a borehole 11 within which a wireline l2 suspends apparatus made in accordance with the present invention.
  • a broken sucker rod 13 is connected to a downhole pump 14 which has become stuck thousands of feet downhole in the borehole. Anything stuck downhole in the borehole, such as the pump 14, is hereinafter referred to as a fish.
  • a fishing tool 15 which can take on any number of known forms, is cleverly designed to run downhole, engage the fish, whereupon if sufficient force can be applied thereto the fish will be removed from the borehole.
  • Swivel, or rope socket 16 is attached to a hydraulic jar 17, made in accordance with the present invention.
  • a releasing tool 18 made in accordance with the present invention includes a dog 19 which can be disengaged from the remainder of the releasing tool whenever it is deemed desirable to do so.
  • the dog is attached to the fishing tool by the illustrated coupling member, sometime called a sub or a fastener.
  • the jar is seen to be comprised of a mandrel 20 having a free end made into the form of a coupling 116, illustrated herein as a pin.
  • Upper closure member 21 is threadily attached to the cylindrical housing 22 and provided with an axial aperture having seal means in the form of spaced o-rings 23 disposed therein so that the mandrel sealingly and slidably engages the closure member.
  • Axially aligned bores 24, 25, of different diameters, are joined together at 24, and form fluid containing annular chambers as seen at 26 and 27.
  • the chambers are divided from one another by piston 28, and are filled with hydraulic fluid or oil.
  • a lower marginal outer end portion 32 of the piston and a lower marginal inner surface of the smaller chamber are formed into a splined connection as best seen illustrated at 30, 30', in FIG. 4.
  • the piston is formed into a downwardly depending skirt member 32 which forms a passageway 29, with the passageway always being in fluid communication with the lower chamber 27.
  • the constant diameter portion 31 of the piston sealingly engages the constant diameter wall portion of the small piston chamber between numerals 24', 31', in close tolerance relationship therewith.
  • An abutment in the form of shoulder 33 can abuttingly engage interior face 21 of the closure member with a tremendous force, thereby accelerating the jar and anything which may be attached to the box thereof.
  • Radially disposed passageways 34 are fluid communication with valve chamber 35, while passageway 36 flow connects the valve chamber to passageway 29.
  • a ball 37 cooperates with a seat 38 to form a ball check valve means, while the illustrated small passageway 36' permits a small flow of fluid across the valve when it is in its seated position.
  • the releasing tool 18 is seen to include a cap 39 which terminates in the form of a pin at the upper extremity thereof for attachment to the main body of the beforementioned jar.
  • Cylindrical wall 40 is in the form of a downwardly directed circumferentially extending skirt which provides a downwardly opening cylindrical chamber 41.
  • Upper wall surface 42 forms the upper extremity of a piston chamber within which a piston 43 is reciprocatingly received for limited movement therein.
  • the piston has an outside diameter (o.d.) 44 which enables it to guidably slide in low friction relationship relative to the interior chamber walLGroove 45 preferably is in the form of a longitudinally extending slot of limited length which receives one of the spaced splines, or rails 46 therewithin.
  • One end of the rail tenninates in abuttingly engagement with the end of the slot to form a stop at 47, while the opposed end of the rail is seen to terminate at 48.
  • a lower marginal portion of the rail is bent back upon itself 180 to form a J 49.
  • the rail 49 and recess or slot 45 can be made into any size required for handling the maximum anticipated load requirements. As noted in FIG. 6, the piston has been forced upwardly so that end 47 is spaced from the terminal end of slot 45.
  • Biasing means in the form of a spring 51 is interposed between the upper face of the piston and the lower face of the cap.
  • the releasing dog has an upper end portion in the form of opposed outwardly depending enlargements or lugs 53, 53', having an upper and lower surface 52, 52, formed into a curve for a purpose which will be explained in more detail later on.
  • Shear pin 54 is received through aperture 55 formed in the skirt, and threadily engages an aperture 56 formed in the dog lugs.
  • a fishing neck 19' upwardly depends from the lugs of the dog.
  • Opposed cams 67, 67' are cut into the lower face of the piston, with the cam commencing near the slot at 69, and becoming progressively deeper until it terminates at 67".
  • the angle formed between edge portions 69 and 69 must be of a magnitude and length to impart sufficient rotational motion into the lugs of the dog so that the lugs may be turned out of the beforementioned J.
  • Counter bore 70 is an optional detail of design which greatly simplifies fabrication of the opposed camways, and which allows fluid to be pumped through the entire tool where such an expedient is desired.
  • FIG. 12 discloses the exterior configuration of the piston in a hypothetical view obtained by arranging the outer surface of the piston into a flat plane.
  • Lug 53 is moved angularly from the schematically illustrated position 53 to 53 by the cam of the piston.
  • the second embodiment of the jar is seen to have a longitudinally extending passageway 58 formed within the mandrel which flow communicates pin 216 with chamber 59 of the piston 31.
  • Chamber 59 reciprocatingly receives hollow fluid coupling member 60 with the fluid coupling member having an axial passageway 61 in fluid communication with the illustrated box.
  • O-rings 62 sealingly engage the area between the outer peripheral wall surface of member 60 and the inner peripheral wall surface of member 31.
  • Radially disposed ribs 30' commence at the lowermost portion of annulus 27 and terminate at a location spaced from shoulder 33 of the piston, thereby leaving ample piston area for sealingly engaging a circumferentially extending interial peripheral wall surface of the reduced diameter cylinder.
  • Flow passageway 64 flow connects chamber 26 with chamber 27, with ball check valve assembly 65 being interposed therebetween in the illustrated caged manner.
  • the ball seat is provided with a groove so that a small How of fluid occurs across the ball check valve means when the piston is urged in an upward direction.
  • the hydraulic jar and the releasing tool of the present invention are attached to any suitable fishing tool and rapidly run downhole into the borehole on a wireline until the fishing tool properly attaches itself to a fish.
  • the wireline is placed under a tension which is less than the designed working strength thereof, whereupon piston 28 commences to travel towards closure member 21 due to leakage which will occur from chamber 26 into the lower chamber, and due to any leakage that might occur across the ball check valve. If it is desired to speed up the interval of the time delay period, the illustrated bypass 36 can be provided across the seat of the valve of FIG. 5.
  • the wireline is slackened, whereupon the mandrel telescopes back through the closure member 21 until the piston returns to the illustrated position of FIG. 2.
  • the ball check valve of FIG. 5 enables fluid to be rapidly transferred from annulus 27 into annulus 26, so that the wireline can again be placed under a predetermined tension so as to produce a second jarring action.
  • the wireline reciprocates the tool string in the above described manner until the fish becomes unstuck and can be retrieved from the borehole.
  • the wireline is placed under sufficient tension to shear pins 54, thereby bringing surfaces 52 of the lugs against portion 49 of the J, whereupon the wireline is slackened and the entire weight of the tool string is brought to bear against the releasing tool.
  • This action causes lugs 53 of the dog to ride up out of the J 49 and surface 52 of the lugs brought into engagement with earns 67', thereby rotating the lugs out of engagement with the J.
  • the lower end portion 52' of the lugs which normally set spaced from the lowermost portion of the J must be raised above and rotated past end portion 48 of the J so that the lugs are free to be withdrawn through the bottom of the cylindrical body.
  • the tool string is brought to the surface of the ground leaving the dog and fishing tool attached to the fish.
  • the hydraulic jar of FIG. 15, together with the releasing tool of FIG. 6, is placed into use by removing coupling member 16 from the releasing tool and substituting therefor a pin which will make up with the box illustrated in FIG. 15.
  • the pin of the jar, illustrated in FIG. 15, is connected into a tubing string and the apparatus lowered into the borehole.
  • another dog 19 must be placed within the J and a simple fishing tool placed upon the pin end of the dog so as to enable the fishing neck 19 of the dog which was left downhole to be caught by the new fishing tool.
  • the use of a fishing neck 19' enables any number of fishing trips to be made downhole, with a simple fishing tool.
  • the apparatus of FIG. 6, used in conjunction with the apparatus of FIG. 15, enables high pressure fluid to flow through the tubing string, through passageways 58, 61, 71, 70, thereby enabling washing out debris which may be the cause of the fish being stuck downhole.
  • FIG. 6 The novel apparatus of FIG. 6 enables the cylinder 18 to be sawed in half, the J 46 made into the illustrated form of FIG. 6, and then welded into place with one .I" being placed on each of the of the skirt member.
  • the skirt member is next welded back into a cylinder, the piston slid into the upper end with the longitudinally extending slots 45 engaging the ribs 46, whereupon the spring is next placed into position, and the cap 39 threadily affixed thereto.
  • This expedient greatly simplifies the construcion and lowers the cost of the releasing tool.
  • the lug will be unable to disengage from the J until the tool string is set down with sufficient force to cause the biasing means to overcome by relative movement effected between the dog and the cylindrical body of the tool.
  • the pin is designed to shear at a value less than the breaking strength of the wireline.
  • the spring preferably is of sufficient force to cause the cam to rotate the lug against the shorter of the two legs, so that as soon as the dog has moved an amount which enables the lug to clear rail end portion 48, the dog will immediately rotate free of the J. For this reason, a sinker bar will sometime be included in the tool string.
  • the cross-sectional configuration of the releasing tool and jar preferably is circular, although they could be square, for example.
  • a wireline operated jar and releasing tool comprising a downwardly opening housing having an upper end portion with coupling means formed thereon for connection to said jar, and a lower end portion in the form of a circumferentially extending skirt member; said skirt member forming a piston chamber therewithin;
  • a piston having an upper face, a lower face, and a circumferentially extending side wall, said piston being reciprocatingly received within said piston chamber, means biasing said piston in a downward direction; means forming opposed longitudinally extending slots in the outer marginal side wall of said piston;
  • opposed rails extending longitudinally of said housing and affixed to the interior of said piston chamber and skirt member, said rail having an upper end portion and a lower end portion, the lower marginal end of said rail being bent back upon itself to form a J; the upper marginal end of said rails being received within said slots;
  • a dog having one end formed into a coupling member for connection to a fishing tool and another end formed into lugs in the form of opposed enlargements, said opposed enlargements being received within said J with said coupling member freely extending therefrom;
  • said jar comprising an elongate housing having an axial bore longitudinally extending therethrough, upper and lower closure means at each extremity of said axial bore forming an enclosed jar piston chamber, a piston reciprocatingly received within said piston chamber, and dividing the chamber into an upper and a lower chamber, a mandrel affixed to said jar piston, an axial passageway through said upper closure member; seal means on said upper closure member, said mandrel having a marginal length thereof slidably received through said axial passageway in sealing engagement therewith, and a coupling member formed on the free end portion of said mandrel and the free end portion of said housing;
  • a check valve means forming a passageway through said jar piston for enabling flow to occur from said lower chamber, through said jar piston, and into said upper chamber; said check valve being positioned within said passageway for precluding flow from said upper chamber, through said passageway, and into said lower chamber.
  • a releasing tool in the form of a downwardly opening housing including an upper end portion having coupling means thereon for connection to a tool joint, and a lower end portion in the form of a circumferentially extending skirt member; said skirt member forming a piston chamber therewithin;
  • a piston having an upper face and a lower face
  • opposed rails extending longitudinally of said housing and affixed to the interior of said piston chamber, said rail having an upper end portion and a lower end portion, the lower marginal end of said rail being bent back upon itself to form a J; the upper marginal end of one of said rails being received within one of said slots;
  • a dog having one end formed into a coupling member for attachement to a fishing tool and another end formed into opposed lugs for being received within said J with said coupling member freely extending therefrom;
  • said dog includes a shaft, said lugs being in the form of opposed members radially extending from said shaft and having a bottom edge portion for being bottom supported in said J and a top edge portion for slidable engagement with said cam means.
  • said cam means is in the form of opposed cavities of increasing depth in the direction required to turn the dog out of the J", said slot terminating in said piston to form an abutment against which said upper end of said rail can be abuttingly received to form a stop member for limiting the downward travel of said piston.
  • a hydraulic jar comprising an elongate housing having an axial bore longitudinally extending therethrough, upper and lower closure means at each extremity of said axial bore forming an enclosed piston chamber, a piston reciprocatingly received within said piston chamber, and dividing the piston chamber into an upper and a lower chamber, a mandrel affixed to said piston, means forming an axial passageway through said upper closure member in sealing engagement with said mandrel, a coupling member formed on the free end portion of said mandrel and the opposed end portion of said housing;
  • said lower chamber having an inside diameter which slidably receives said piston in close tolerance relationship therein; said upper chamber having an inside diameter larger than said chamber so that when said piston enters said upper chamber, a flow path in the form of an annulus is formed thereabout;
  • a check valve means forming a passageway through said piston for enabling flow to occur from said lower chamber, through said piston, and into said chamber; said check valve being positioned within said passageway for precluding flow from said upper chamber, through said passageway, and into said lower chamber;
  • a releasing tool in the form of a downwardly opening housing, including an upper end portion having coupling means thereon for connection within said tool joint, and a lower end portion in the form of a circumferentially extending skirt member; said skirt member forming a downwardly opening chamber therewithin;
  • a dog having one end formed into a coupling member for attachment into said tool joint and another end formed into opposed lugs, said opposed lugs being removably received within said J with said coupling member freely extending therefrom;
  • the lower face of the last said piston having means forming opposed recesses therein to form a cam means so that said lugs can engage said cams to cause the lugs to be turned out of said J, thereby releasing the dog from the last said housing.
  • said fluid coupling includes a downwardly opening axial bore formed within said piston, said axial bore being in fluid communication with said passageway formed through said mandrel;
  • said fluid coupling comprises a tubular upstanding member affixed to said housing and having the interior thereof in fluid communication with the coupling member formed on said housing;

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  • Engineering & Computer Science (AREA)
  • Geology (AREA)
  • Mining & Mineral Resources (AREA)
  • Physics & Mathematics (AREA)
  • Environmental & Geological Engineering (AREA)
  • Fluid Mechanics (AREA)
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Abstract

A combination hydraulic jar and releasing tool for wire line operation. The releasing tool has a dog positioned with a ''''J'''', with part of the ''''J'''' forming a spline which is received within the groove of a piston. The piston reciprocates within a chamber, and has a lower face thereof made into a cam which can be brought to bear against the dog with a cam action, so that the dog is turned out of the ''''J'''' when the tool string is set down. The hydraulic jar comprises a mandrel attached to a piston with the piston being reciprocatingly received within a piston chamber. The chamber comprises adjacent large and small concentrically arranged axial passageways with a valve located therebetween so that the piston, when released from the small chamber, accelerates and impacts against the opposed end of the chamber with a jarring action.

Description

United States Patent White Jan. 14, 1975 COMBINATION JAR AND RELEASING TOOL Primary Examiner-James A. Leppink [76] Inventor: Travis B. White, PO. Box 177, Ammey Agem Bates lraan, Tex. 79744 [57] ABSTRACT [22] plied 1973 A combination hydraulic jar and releasing tool for [21] Appl. No.1 392,203 wire line operation. The releasing tool has a dog positioned with a .1, with part of the J forming a spline which is received within the groove of a piston. [52] US. Cl. 175/294, 166/297 The piston reciprocates within a chamber and has a [51] Int. Cl E2lb l/l0 lower face thereof made into a cam which can be [58] Field of Search 175/294, 296, 297 brought to bear against the dog with a cam action, so [56] References Cited sciogjsmtlurned out of the J when the tool 1 OH 324 T PATENTS 175,294 The hydraulic jar comprises a mandrel attached to a an mg 2,315,905 4/1943 Stafford 175,297 p ston with the piston being reciprocatingly recelved within a piston chamber. The chamber comprises 2,544,473 3/1951 Smith 175/296 l d n n d 1 2,828,822 4/1958 Greer 175/297 a arge f sma V arrange am 2,370,992 1/1959 Arterbenyw 175/296 passageways w1th a valve located therebetween so that 3,126,972 3/1964 Sutliff 175/294 the p when released from e sma chamber, 3,411,597 11/1968 Kinley et a1 175/294 accelerates and impacts against the opposed end of Canada 175/296 the chamber with a jarring action.
12 Claims, 17 Drawing Figures PAINTED- JKQ my aw m m gxmv PATENTEOJAN I 4|975 sum 2 or 4 PATENTED JAN 141915 SHEEI 30F 4 FiGll FIIG. I2
FIGI?) 4? PATENTEUJANI 41915 3.860.076
SHEET u 0? 4 COMBINATION JAR AND RELEASING TOOL BACKGROUND OF THE INVENTION Objects often become stuck downhole in a borehole. For example, a downhole pump actuated by sucker rod sometimes malfunctions, the rod parts somewhere above the pump, and accordingly, the rod must be pulled, and the remaining end thereof extracted from the bottom of the borehole, along with the defective pump. Such a stuck object, regardless of its configuration, or how it arrived in the borehole, is referred to as a fish.
One prior art means for removing a fish is to attach a fishing tool to the end of a string of sucker rod and run the rod downhole as it is being made up joint by joint, until the tool contacts or engages the fish, whereupon great force can then be applied to the rod in order to extract the fish from the hole. A jar is usually interposed between the fishing tool and the string of rod so that one can reciprocate the rod, thus imparting a jarring action into the fish. Sometimes it is necessary to jar the fish for many hours in order to cause it to become unstuck. Sometimes the rod again parts, whereupon there are two fish to be extracted from the well.
The above described operation is extremely expensive because of equipment rental, the downtime, the standby time, and the cost of expert personnel. Accordingly, it is desirable to have made available a wireline operated combination fishing, jarring, and releasing tool which is low in cost and which enables one to run rapidly downhole on a wireline, engage a fish, place a predetermined tension on the wire line, impact the fish with a tremendous force, and more importantly, be able to release from the fish and fishing tool should the stuck fish refuse to become unstuck.
SUMMARY OF THE INVENTION This invention relates to a downhole tool and particularly to a combination jar and releasing tool for use in conjunction with fishing tools. The jar has a piston reciprocatingly received within a piston chamber. The chamber is of two different inside diameters (i.d.s) so that when the mandrel pulls the piston from the small into the large piston chamber, the piston accelerates while traveling through the larger piston chamber and impacts against the end of the large piston chamber, thereby providing for the desired jarring action.
The releasing tool is comprised of a downwardly opening housing having spaced .ls" with one leg of the 1" extending upwardly into a piston chamber, where a piston is reciprocatingly received. The piston has spaced longitudinally extending slots of limited length formed thereon within which the extended leg of the J is slidably received. The lower face of the piston is made into a cam so that when the tool string is set down, a dog received within the J is pushed against the cam, causing the dog to lift the piston while the cam on the piston turns the dog out of the J.
Accordingly, a primary object of the present invention is the provision of improvements in a combination hydraulic jar and releasing tool.
Another object of the invention is to provide a hydraulic jar having a mandrel attached to a piston thereof with the piston being reciprocatingly received within axially aligned chambers of different i.d.s, with the piston and the smaller chamber having means forminga splined connection therebetween so that rotation of the mandrel imparts rotation into the jar body.
A further object of this invention is to provide a hydraulic jar which includes a fluid coupling formed through the mandrel and the main bocy of the jar.
A still further object of this invention is to provide a releasing tool having a dog releasibly engaged to a J, and a cam formed within a piston which provides a means by which the dog can be turned out of the 1".
These and various other objects and advantages of the invention will become readily apparent to those skilled in the art upon reading the following detailed description and claims and by referring to the accompanying drawings.
The above objects are attained in accordance with the present invention by the provision of a combination of elements which are fabricated in a manner substantially as described in the above abstract and summary.
BRIEF DESCRIPTION OF THE DRAWINGS In FIG. 1 there is diagrammatically illustrated a cross-section of the earth within which there has been formed a borehole, with apparatus made in accordance with the present invention being disposed within the borehole in operative relationship with other apparatus;
FIG. 2 is an enlarged, broken, longitudinal, part cross-sectional view of part of the apparatus disclosed in FIG. 1;
FIGS. 3 and 4, respectively, are cross-sectional views taken along lines 3--3 and 44 respectively, of FIG. 2;
FIG. 5 is a fragmentary, part cross-sectional view of part of the apparatus disclosed in FIG. 2;
FIG. 6 is an enlarged, longitudinal, part crosssectional view of part of the apparatus disclosed in FIG. 1;
FIGS. 7, 8, and 9, respectively, are cross-sectional views taken along lines 7-7, 8-8, and 99, respectively, of FIG. 6;
'FIG. 10 is a part cross-sectional view taken along line 10-10 of FIG. 11;
' FIG. 11 is a side elevational view of the piston disclosed in FIG. 6;
FIG. 12 is a hypothetical view of the piston' of FIG. 11;
FIGS. 13 and 14 are diagrammatical, side views which disclose some operative features of the invention;
FIG. 15 is a longitudinal, part cross-sectional representation of a modification of part of the apparatus disclosed in FIGS. 1-5; and
FIGS. 16 and 17, respectively, are cross-sectional views taken along lines 1616 and l7-l7, respectively, of FIG. 15.
DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Throughout the various figures of the drawings, wherever deemed desirable and logical, like or similar numerals relate to like or similar elements of the invention.
In FIG. 1 there is formed through the earth 10 a borehole 11 within which a wireline l2 suspends apparatus made in accordance with the present invention. A broken sucker rod 13 is connected to a downhole pump 14 which has become stuck thousands of feet downhole in the borehole. Anything stuck downhole in the borehole, such as the pump 14, is hereinafter referred to as a fish.
A fishing tool 15, which can take on any number of known forms, is cleverly designed to run downhole, engage the fish, whereupon if sufficient force can be applied thereto the fish will be removed from the borehole.
Swivel, or rope socket 16, is attached to a hydraulic jar 17, made in accordance with the present invention. A releasing tool 18 made in accordance with the present invention includes a dog 19 which can be disengaged from the remainder of the releasing tool whenever it is deemed desirable to do so. The dog is attached to the fishing tool by the illustrated coupling member, sometime called a sub or a fastener.
Looking now to the specific details of one of the embodiments of the hydraulic jar l7, and as particularly seen illustrated in FIGS. 2-5, the jar is seen to be comprised of a mandrel 20 having a free end made into the form of a coupling 116, illustrated herein as a pin. Upper closure member 21 is threadily attached to the cylindrical housing 22 and provided with an axial aperture having seal means in the form of spaced o-rings 23 disposed therein so that the mandrel sealingly and slidably engages the closure member.
Axially aligned bores 24, 25, of different diameters, are joined together at 24, and form fluid containing annular chambers as seen at 26 and 27. The chambers are divided from one another by piston 28, and are filled with hydraulic fluid or oil.
A lower marginal outer end portion 32 of the piston and a lower marginal inner surface of the smaller chamber are formed into a splined connection as best seen illustrated at 30, 30', in FIG. 4. The piston is formed into a downwardly depending skirt member 32 which forms a passageway 29, with the passageway always being in fluid communication with the lower chamber 27. The constant diameter portion 31 of the piston sealingly engages the constant diameter wall portion of the small piston chamber between numerals 24', 31', in close tolerance relationship therewith. An abutment in the form of shoulder 33 can abuttingly engage interior face 21 of the closure member with a tremendous force, thereby accelerating the jar and anything which may be attached to the box thereof.
Radially disposed passageways 34 are fluid communication with valve chamber 35, while passageway 36 flow connects the valve chamber to passageway 29. A ball 37 cooperates with a seat 38 to form a ball check valve means, while the illustrated small passageway 36' permits a small flow of fluid across the valve when it is in its seated position.
Looking now to the details of FIGS. 6-10, the releasing tool 18 is seen to include a cap 39 which terminates in the form of a pin at the upper extremity thereof for attachment to the main body of the beforementioned jar. Cylindrical wall 40 is in the form of a downwardly directed circumferentially extending skirt which provides a downwardly opening cylindrical chamber 41. Upper wall surface 42 forms the upper extremity of a piston chamber within which a piston 43 is reciprocatingly received for limited movement therein. The piston has an outside diameter (o.d.) 44 which enables it to guidably slide in low friction relationship relative to the interior chamber walLGroove 45 preferably is in the form of a longitudinally extending slot of limited length which receives one of the spaced splines, or rails 46 therewithin. One end of the rail tenninates in abuttingly engagement with the end of the slot to form a stop at 47, while the opposed end of the rail is seen to terminate at 48. A lower marginal portion of the rail is bent back upon itself 180 to form a J 49. The rail 49 and recess or slot 45 can be made into any size required for handling the maximum anticipated load requirements. As noted in FIG. 6, the piston has been forced upwardly so that end 47 is spaced from the terminal end of slot 45.
Biasing means in the form of a spring 51 is interposed between the upper face of the piston and the lower face of the cap. The releasing dog has an upper end portion in the form of opposed outwardly depending enlargements or lugs 53, 53', having an upper and lower surface 52, 52, formed into a curve for a purpose which will be explained in more detail later on. Shear pin 54 is received through aperture 55 formed in the skirt, and threadily engages an aperture 56 formed in the dog lugs. A fishing neck 19' upwardly depends from the lugs of the dog.
Opposed cams 67, 67', are cut into the lower face of the piston, with the cam commencing near the slot at 69, and becoming progressively deeper until it terminates at 67". The angle formed between edge portions 69 and 69 must be of a magnitude and length to impart sufficient rotational motion into the lugs of the dog so that the lugs may be turned out of the beforementioned J. Counter bore 70 is an optional detail of design which greatly simplifies fabrication of the opposed camways, and which allows fluid to be pumped through the entire tool where such an expedient is desired.
The design details of the piston are best comprehended from viewing FIG. 12, which discloses the exterior configuration of the piston in a hypothetical view obtained by arranging the outer surface of the piston into a flat plane. Lug 53 is moved angularly from the schematically illustrated position 53 to 53 by the cam of the piston.
In FIGS. 15-17, the second embodiment of the jar is seen to have a longitudinally extending passageway 58 formed within the mandrel which flow communicates pin 216 with chamber 59 of the piston 31. Chamber 59 reciprocatingly receives hollow fluid coupling member 60 with the fluid coupling member having an axial passageway 61 in fluid communication with the illustrated box. O-rings 62 sealingly engage the area between the outer peripheral wall surface of member 60 and the inner peripheral wall surface of member 31.
Radially disposed ribs 30' commence at the lowermost portion of annulus 27 and terminate at a location spaced from shoulder 33 of the piston, thereby leaving ample piston area for sealingly engaging a circumferentially extending interial peripheral wall surface of the reduced diameter cylinder. Flow passageway 64 flow connects chamber 26 with chamber 27, with ball check valve assembly 65 being interposed therebetween in the illustrated caged manner. The ball seat is provided with a groove so that a small How of fluid occurs across the ball check valve means when the piston is urged in an upward direction.
OPERATION In operation, the hydraulic jar and the releasing tool of the present invention are attached to any suitable fishing tool and rapidly run downhole into the borehole on a wireline until the fishing tool properly attaches itself to a fish. The wireline is placed under a tension which is less than the designed working strength thereof, whereupon piston 28 commences to travel towards closure member 21 due to leakage which will occur from chamber 26 into the lower chamber, and due to any leakage that might occur across the ball check valve. If it is desired to speed up the interval of the time delay period, the illustrated bypass 36 can be provided across the seat of the valve of FIG. 5.
As edge portion 31' of the piston clears edge portion 24 of the cylinder, the piston, mandrel, and the tool string attached to the mandrel will accelerate as shoulder 33 travels into abuttment with shoulder 21. This action jars the fishing tool in an upward direction, thereby providing for an instantaneous force greatly in excess of the force provided by the tensil strength of the wireline.
The wireline is slackened, whereupon the mandrel telescopes back through the closure member 21 until the piston returns to the illustrated position of FIG. 2. As the piston is stroked in a downward direction, the ball check valve of FIG. 5 enables fluid to be rapidly transferred from annulus 27 into annulus 26, so that the wireline can again be placed under a predetermined tension so as to produce a second jarring action. The wireline reciprocates the tool string in the above described manner until the fish becomes unstuck and can be retrieved from the borehole.
After a suitable time, should it be concluded that the fish cannot be unstuck in the above described manner, the wireline is placed under sufficient tension to shear pins 54, thereby bringing surfaces 52 of the lugs against portion 49 of the J, whereupon the wireline is slackened and the entire weight of the tool string is brought to bear against the releasing tool. This action causes lugs 53 of the dog to ride up out of the J 49 and surface 52 of the lugs brought into engagement with earns 67', thereby rotating the lugs out of engagement with the J. The lower end portion 52' of the lugs which normally set spaced from the lowermost portion of the J must be raised above and rotated past end portion 48 of the J so that the lugs are free to be withdrawn through the bottom of the cylindrical body.
After the dog has been released from the J, the tool string is brought to the surface of the ground leaving the dog and fishing tool attached to the fish. The hydraulic jar of FIG. 15, together with the releasing tool of FIG. 6, is placed into use by removing coupling member 16 from the releasing tool and substituting therefor a pin which will make up with the box illustrated in FIG. 15. The pin of the jar, illustrated in FIG. 15, is connected into a tubing string and the apparatus lowered into the borehole. Before going into the borehole, another dog 19 must be placed within the J and a simple fishing tool placed upon the pin end of the dog so as to enable the fishing neck 19 of the dog which was left downhole to be caught by the new fishing tool. The use of a fishing neck 19' enables any number of fishing trips to be made downhole, with a simple fishing tool.
The apparatus of FIG. 6, used in conjunction with the apparatus of FIG. 15, enables high pressure fluid to flow through the tubing string, through passageways 58, 61, 71, 70, thereby enabling washing out debris which may be the cause of the fish being stuck downhole.
The novel apparatus of FIG. 6 enables the cylinder 18 to be sawed in half, the J 46 made into the illustrated form of FIG. 6, and then welded into place with one .I" being placed on each of the of the skirt member. The skirt member is next welded back into a cylinder, the piston slid into the upper end with the longitudinally extending slots 45 engaging the ribs 46, whereupon the spring is next placed into position, and the cap 39 threadily affixed thereto. This expedient greatly simplifies the construcion and lowers the cost of the releasing tool.
In the embodiment of FIGS. 2 and 15, where splines be used, it is necessary that the length of the splined connection be slightly longer than the distance between shoulder 33 and abuttment 21, so that the splines are not disengaged from one another.
Should the pin 54 inadvertently shear, the lug will be unable to disengage from the J until the tool string is set down with sufficient force to cause the biasing means to overcome by relative movement effected between the dog and the cylindrical body of the tool.
The pin is designed to shear at a value less than the breaking strength of the wireline. After shearing, as the tool string is set down, the housing will move in a downward direction about the dog, causing the lugs to move the piston against the spring until surface 52' of the lug clears end portion 48 of the rail. As the dog continues to move relative to the housing, the piston likewise continues to move against the spring, thereby increasing the rotational moment imparted into the lugs by the cam.
The spring preferably is of sufficient force to cause the cam to rotate the lug against the shorter of the two legs, so that as soon as the dog has moved an amount which enables the lug to clear rail end portion 48, the dog will immediately rotate free of the J. For this reason, a sinker bar will sometime be included in the tool string.
The cross-sectional configuration of the releasing tool and jar preferably is circular, although they could be square, for example.
I claim:
1. In combination, a wireline operated jar and releasing tool comprising a downwardly opening housing having an upper end portion with coupling means formed thereon for connection to said jar, and a lower end portion in the form of a circumferentially extending skirt member; said skirt member forming a piston chamber therewithin;
a piston having an upper face, a lower face, and a circumferentially extending side wall, said piston being reciprocatingly received within said piston chamber, means biasing said piston in a downward direction; means forming opposed longitudinally extending slots in the outer marginal side wall of said piston;
opposed rails extending longitudinally of said housing and affixed to the interior of said piston chamber and skirt member, said rail having an upper end portion and a lower end portion, the lower marginal end of said rail being bent back upon itself to form a J; the upper marginal end of said rails being received within said slots;
a dog having one end formed into a coupling member for connection to a fishing tool and another end formed into lugs in the form of opposed enlargements, said opposed enlargements being received within said J with said coupling member freely extending therefrom;
the lower face of said piston having opposed recesses formed therein to form a cam means so that said lugs can engage said cam means to cause the lugs to be turned out of said J when the dog is forced against said piston, thereby releasing the dog from the housing;
said jar comprising an elongate housing having an axial bore longitudinally extending therethrough, upper and lower closure means at each extremity of said axial bore forming an enclosed jar piston chamber, a piston reciprocatingly received within said piston chamber, and dividing the chamber into an upper and a lower chamber, a mandrel affixed to said jar piston, an axial passageway through said upper closure member; seal means on said upper closure member, said mandrel having a marginal length thereof slidably received through said axial passageway in sealing engagement therewith, and a coupling member formed on the free end portion of said mandrel and the free end portion of said housing;
a portion of said lower chamber having an inside diameter which slidably receives said jar piston in close tolerance relationship therein; an upper portion of said jar piston having an inside diameter larger than the lower portion of said jar piston so that when said jar piston enters said upper portion of said jar piston chamber, a flow path in the form of an annulus is found thereabout;
a check valve, means forming a passageway through said jar piston for enabling flow to occur from said lower chamber, through said jar piston, and into said upper chamber; said check valve being positioned within said passageway for precluding flow from said upper chamber, through said passageway, and into said lower chamber.
2. The releasing tool of claim 1 wherein said recesses are in the form of opposed cavities of increasing depth in the direction in which the lugs are to be turned out of the J.
3. The releasing tool of claim 1 and further including means forming a splined connection between said jar piston and said housing so that rotation of said mandrel imparts rotation into said body.
4. A releasing tool in the form of a downwardly opening housing, including an upper end portion having coupling means thereon for connection to a tool joint, and a lower end portion in the form of a circumferentially extending skirt member; said skirt member forming a piston chamber therewithin;
a piston having an upper face and a lower face, and
a circumferentially extending side wall, said piston being reciprocatingly received for limited movement within said piston chamber, means biasing said piston in a downward direction, and opposed longitudinally extending slots formed in the outer marginal side wall of said piston;
opposed rails extending longitudinally of said housing and affixed to the interior of said piston chamber, said rail having an upper end portion and a lower end portion, the lower marginal end of said rail being bent back upon itself to form a J; the upper marginal end of one of said rails being received within one of said slots;
a dog having one end formed into a coupling member for attachement to a fishing tool and another end formed into opposed lugs for being received within said J with said coupling member freely extending therefrom;
the lower face of said piston having a cam means formed thereon so that said lugs can be forced into engagement with said cam means to cause said lugs to turn out of said J, thereby releasing the dog from the housing.
5. The releasing tool of claim 4 wherein said dog includes a shaft, said lugs being in the form of opposed members radially extending from said shaft and having a bottom edge portion for being bottom supported in said J and a top edge portion for slidable engagement with said cam means.
6. The releasing tool of claim 4 wherein said cam means is in the form of opposed cavities of increasing depth in the direction required to turn the dog out of the J, said slot terminating in said piston form an abutment against which said upper end of said rail can be abuttingly received to form a stop member for limiting the downward travel of said piston.
7. The releasing tool of claim 4 wherein said dog includes a shaft, said lugs being in the form of opposed.
members radially extending from said shaft and having a bottom edge portion for being bottom supported in said J and a top edge portion for slidable engagement with said cam means;
said cam means is in the form of opposed cavities of increasing depth in the direction required to turn the dog out of the J", said slot terminating in said piston to form an abutment against which said upper end of said rail can be abuttingly received to form a stop member for limiting the downward travel of said piston.
8. A hydraulic jar comprising an elongate housing having an axial bore longitudinally extending therethrough, upper and lower closure means at each extremity of said axial bore forming an enclosed piston chamber, a piston reciprocatingly received within said piston chamber, and dividing the piston chamber into an upper and a lower chamber, a mandrel affixed to said piston, means forming an axial passageway through said upper closure member in sealing engagement with said mandrel, a coupling member formed on the free end portion of said mandrel and the opposed end portion of said housing;
said lower chamber having an inside diameter which slidably receives said piston in close tolerance relationship therein; said upper chamber having an inside diameter larger than said chamber so that when said piston enters said upper chamber, a flow path in the form of an annulus is formed thereabout;
a check valve, means forming a passageway through said piston for enabling flow to occur from said lower chamber, through said piston, and into said chamber; said check valve being positioned within said passageway for precluding flow from said upper chamber, through said passageway, and into said lower chamber;
means forming a fluid coupling which forms a flow passageway through said coupling member on said mandrel, through said mandrel, through said piston, and through said coupling member of said housing; so that fluid can be flowed through said jar while said jar imparts a jarring action into said housing.
9. The improvement of claim 8 and further including means forming a splined connection between said piston and said housing so that rotation of said mandrel imparts rotation into said body.
10. The improvement of claim 8, and further including a releasing tool in the form of a downwardly opening housing, including an upper end portion having coupling means thereon for connection within said tool joint, and a lower end portion in the form of a circumferentially extending skirt member; said skirt member forming a downwardly opening chamber therewithin;
another piston having an upper face, a lower face,
and a circumferentially extending side wall, said another piston being reciprocatingly received within the last said chamber, means biasing the last said piston on a downward direction and opposed longitudinally extending slots formed in the outer marginal side wall of the last said piston;
opposed rails extending longitudinally of the last said housing and affixed to the interior of said skirt member, said rail having an upper end portion and a lower end portion, the lower marginal end of said rail being bent back upon itself to form a J; the upper marginal end of said rails being received within said slots;
a dog having one end formed into a coupling member for attachment into said tool joint and another end formed into opposed lugs, said opposed lugs being removably received within said J with said coupling member freely extending therefrom;
the lower face of the last said piston having means forming opposed recesses therein to form a cam means so that said lugs can engage said cams to cause the lugs to be turned out of said J, thereby releasing the dog from the last said housing.
11. The hydraulic jar of claim 8 wherein said fluid coupling includes a downwardly opening axial bore formed within said piston, said axial bore being in fluid communication with said passageway formed through said mandrel;
a hollow fluid coupling member affixed to said housing and reciprocatingly received in sealed relationship within said axial bore of said piston;
the interior of said hollow fluid coupling member being in fluid communication with said coupling member on said housing.
12. The hydraulic jar of claim 8 wherein said fluid coupling comprises a tubular upstanding member affixed to said housing and having the interior thereof in fluid communication with the coupling member formed on said housing;
a downwardly opening axial bore formed within said piston, the last axial bore being in fluid communication with the interior of said mandrel; the last axial bore reciprocatingly receiving said tubular upstanding member in sealed relationship therewithin.
UNITED STATES PATENT OFFICE CERTIFICATE OF CORRECTION Patent No. 3, 7 Dated January 1L1! 1975 r 1 Inventofls) 'ravls fnlte It is certified that error appears in the above-identified patent and that said Letters Patent are hereby corrected as shown below:
Column 8, line 20, insert --to-- after piston".
Column 8, line 15, after "member" insert said mandrel having a marginal length thereof slidably received through said axial passageway, seal means on said upper closure member--.
Column 8, line 60, insert --upper-- before chamber.
Column 5?, line '57, substitute --on-- for "of.
Column (3113;) atte-st:
C. BL -'QSEKALL DAT-II LLUIE': C. 115502? Commissioner of Patents r-ittesting Officer and Trademarks FORM USCOMM-DC 60376-P69 Q U.S. GOVERNMENT HUNTING OFFICE 2 '99 0-355-33.

Claims (12)

1. In combination, a wireline operated jar and releasing tool comprising a downwardly opening housing having an upper end portion with coupling means formed thereon for connection to said jar, and a lower end portion in the form of a circumferentially extending skirt member; said skirt member forming a piston chamber therewithin; a piston having an upper face, a lower face, and a circumferentially extending side wall, said piston being reciprocatingly received within said piston chamber, means biasing said piston in a downward direction; means forming opposed longitudinally extending slots in the outer marginal side wall of said piston; opposed rails extending longitudinally of said housing and affixed to the interior of said piston chamber and skirt member, said rail having an upper end portion and a lower end portion, the lower marginal end of said rail being bent back upon itself to form a ''''J''''; the upper marginal end of said rails being received within said slots; a dog having one end formed into a coupling member for connection to a fishing tool and another end formed into lugs in the form of opposed enlargements, said opposed enlargements being received within said ''''J'''' with said coupling member freely extending therefrom; the lower face of said piston having opposed recesses formed therein to form a cam means so that said lugs can engage said cam means to cause the lugs to be turned out of said ''''J'''' when the dog is forced against said piston, thereby releasing the dog from the housing; said jar comprising an elongate housing having an axial bore longitudinally extending therethrough, upper and lower closure means at each extremity of said axial bore forming an enclosed jar piston chamber, a piston reciprocatingly received within said piston chamber, and dividing the chamber into an upper and a lower chamber, a mandrel affixed to said jar piston, an axial passageway through said upper closure member; seal means on said upper closure member, said mandrel having a marginal length thereof slidably received through said axial passageway in sealing engagement therewith, and a coupling member formed on the free end portion of said mandrel and the free end portion of said housing; a portion of said lower chamber having an inside diameter which slidably receives said jar piston in close tolerance relationship therein; an upper portion of said jar piston having an inside diameter larger than the lower portion of said jar piston so that when said jar piston enters said upper portion of said jar piston chamber, a flow path in the form of an annulus is found thereabout; a check valve, means forming a passageway through said jar piston for enabling flow to occur from said lower chamber, through said jar piston, and into said upper chamber; said check valve being positioned within said passageway for precluding flow from said upper chamber, through said passageway, and into said lower chamber.
2. The releasing tool of claim 1 wherein said recesses are in the form of opposed cavities of increasing depth in the direction in which the lugs are to be turned out of the ''''J''''.
3. The releasing tool of claim 1 and further including means forming a splined connection between said jar piston and said housing so that rotation of said mandrel imparts rotation into said body.
4. A releasing tool in the form of a downwardly opening housing, including an upper end portion having coupling means thereon for connection to a tool joint, and a lower end portion in the form of a circumferentially extending skirt member; said skirt member forming a piston chamber therewithin; a piston having an upper face and a lower face, and a circumferentially extending side wall, said piston being reciprocatingly received for limited movement within said piston chamber, means biasing said piston in a downward direction, and opposed longitudinally extending slots formed in the outer marginal side wall of said piston; opposed rails extending longitudinally of said housing and affixed to the interior of said piston chamber, said rail having an upper end portion and a lower end portion, the lower marginal end of said rail being bent back upon itself to form a ''''J''''; the upper marginal end of one of said rails being received within one of said slots; a dog having one end formed into a coupling member for attachement to a fishing tool and another end formed into opposed lugs for being received within said ''''J'''' with said coupling member freely extending therefrom; the lower face of said piston having a cam means formed thereon so that said lugs can be forced into engagement with said cam means to cause said lugs to turn out of said ''''J'''', thereby releasing the dog from the housing.
5. The releasing tool of claim 4 wherein said dog includes a shaft, said lugs being in the form of opposed members radially extending from said shaft and having a bottom edge portion for being bottom supported in said ''''J'''' and a top edge portion for slidable engagement with said cam means.
6. The releasing tool of claim 4 wherein said cam means is in the form of opposed cavities of increasing depth in the direction required to turn the dog out of the ''''J'''', said slot terminating in said piston form an abutment against which said upper end of said rail can be abuttingly received to form a stop member for limiting the downward travel of said piston.
7. The releasing tool of claim 4 wherein said dog includes a shaft, said lugs being in the form of opposed members radially extending from said shaft and having a bottom edge portion for being bottom supported in said ''''J'''' and a top edge portion for slidable engagement with said cam means; said cam means is in the form of opposed cavities of increasing depth in the direction required to turn the dog out of the ''''J'''', said slot terminating in said piston to form an abutment against which said upper end of said rail can be abuttingly received to form a stop member for limiting the downward travel of said piston.
8. A hydraulic jar comprising an elongate housing having an axial bore longitudinally extending therethrough, upper and lower closure means at each extremity of said axial bore forming an enclosed piston chamber, a piston reciprocatingly received within said piston chamber, and dividing the piston chamber into an upper and a lower chamber, a mandrel affixed to said piston, means forming an axial passageway through said upper closure member in sealing engagement with said mandrel, a coupling member formed on the free end portion of said mandrel and the opposed end portion of said housing; said lower chamber having an inside diameter which slidably receives said piston in close tolerance relationship therein; said upper chamber having an inside diameter larger than said chamber so that when said piston enters said upper chamber, a flow path in the form of an annulus is formed thereabout; a check valve, means forming a passageway through said piston for enabling flow to occur from said lower chamber, through said piston, and into said chamber; said check valve being positioned within said passageway for precluding flow from said upper chamber, through said passageway, and into said lower chamber; means forming a fluid coupling which forms a flow passageway through said coupling member on said mandrel, through said mandrel, through said piston, and through said coupling member of said housing; so that fluid can be flowed through said jar while said jar imparts a jarring action into said housing.
9. The improvement of claim 8 and further including means forming a splined connection bEtween said piston and said housing so that rotation of said mandrel imparts rotation into said body.
10. The improvement of claim 8, and further including a releasing tool in the form of a downwardly opening housing, including an upper end portion having coupling means thereon for connection within said tool joint, and a lower end portion in the form of a circumferentially extending skirt member; said skirt member forming a downwardly opening chamber therewithin; another piston having an upper face, a lower face, and a circumferentially extending side wall, said another piston being reciprocatingly received within the last said chamber, means biasing the last said piston on a downward direction and opposed longitudinally extending slots formed in the outer marginal side wall of the last said piston; opposed rails extending longitudinally of the last said housing and affixed to the interior of said skirt member, said rail having an upper end portion and a lower end portion, the lower marginal end of said rail being bent back upon itself to form a ''''J''''; the upper marginal end of said rails being received within said slots; a dog having one end formed into a coupling member for attachment into said tool joint and another end formed into opposed lugs, said opposed lugs being removably received within said ''''J'''' with said coupling member freely extending therefrom; the lower face of the last said piston having means forming opposed recesses therein to form a cam means so that said lugs can engage said cams to cause the lugs to be turned out of said ''''J'''', thereby releasing the dog from the last said housing.
11. The hydraulic jar of claim 8 wherein said fluid coupling includes a downwardly opening axial bore formed within said piston, said axial bore being in fluid communication with said passageway formed through said mandrel; a hollow fluid coupling member affixed to said housing and reciprocatingly received in sealed relationship within said axial bore of said piston; the interior of said hollow fluid coupling member being in fluid communication with said coupling member on said housing.
12. The hydraulic jar of claim 8 wherein said fluid coupling comprises a tubular upstanding member affixed to said housing and having the interior thereof in fluid communication with the coupling member formed on said housing; a downwardly opening axial bore formed within said piston, the last axial bore being in fluid communication with the interior of said mandrel; the last axial bore reciprocatingly receiving said tubular upstanding member in sealed relationship therewithin.
US392203A 1973-08-28 1973-08-28 Combination jar and releasing tool Expired - Lifetime US3860076A (en)

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Cited By (5)

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Publication number Priority date Publication date Assignee Title
US4715454A (en) * 1986-06-03 1987-12-29 Teng Chuan C Mechanical directional drilling jar with swivel means
US5624001A (en) * 1995-06-07 1997-04-29 Dailey Petroleum Services Corp Mechanical-hydraulic double-acting drilling jar
US6290004B1 (en) 1999-09-02 2001-09-18 Robert W. Evans Hydraulic jar
US6481495B1 (en) 2000-09-25 2002-11-19 Robert W. Evans Downhole tool with electrical conductor
WO2013133795A1 (en) 2012-03-06 2013-09-12 Halliburton Energy Services, Inc. Safety joint with non-rotational actuation

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US1011324A (en) * 1911-05-17 1911-12-12 Joseph Darling Well-drilling apparatus.
US2315905A (en) * 1940-03-01 1943-04-06 Ira J Mccullough Jarring tool
US2544473A (en) * 1946-05-24 1951-03-06 Lester W Smith Hydrostatic rotary jar
US2828822A (en) * 1955-01-31 1958-04-01 Independent Tool Company Well jar
US2870992A (en) * 1955-05-17 1959-01-27 Roy L Arterbury Jar operable upon release of vacuum
US3126972A (en) * 1964-03-31 Safety joint
US3411597A (en) * 1967-07-18 1968-11-19 Kinley Co J C Safety shear pin assembly

Patent Citations (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3126972A (en) * 1964-03-31 Safety joint
US1011324A (en) * 1911-05-17 1911-12-12 Joseph Darling Well-drilling apparatus.
US2315905A (en) * 1940-03-01 1943-04-06 Ira J Mccullough Jarring tool
US2544473A (en) * 1946-05-24 1951-03-06 Lester W Smith Hydrostatic rotary jar
US2828822A (en) * 1955-01-31 1958-04-01 Independent Tool Company Well jar
US2870992A (en) * 1955-05-17 1959-01-27 Roy L Arterbury Jar operable upon release of vacuum
US3411597A (en) * 1967-07-18 1968-11-19 Kinley Co J C Safety shear pin assembly

Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US4715454A (en) * 1986-06-03 1987-12-29 Teng Chuan C Mechanical directional drilling jar with swivel means
US5624001A (en) * 1995-06-07 1997-04-29 Dailey Petroleum Services Corp Mechanical-hydraulic double-acting drilling jar
US6290004B1 (en) 1999-09-02 2001-09-18 Robert W. Evans Hydraulic jar
US6481495B1 (en) 2000-09-25 2002-11-19 Robert W. Evans Downhole tool with electrical conductor
WO2013133795A1 (en) 2012-03-06 2013-09-12 Halliburton Energy Services, Inc. Safety joint with non-rotational actuation
EP2791456A4 (en) * 2012-03-06 2015-06-24 Halliburton Energy Services Inc Safety joint with non-rotational actuation

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